System for Delivering Chemicals to a Toilet Bowl

ABSTRACT

A chemical system is provided for adding a small amount of chemicals to a toilet bowl during the refilling cycle. The system at least one chamber and uses water to force chemicals out and into the overflow tube of the toilet.

BACKGROUND OF THE INVENTION

This application is a continuation-in-part application of and claimspriority to U.S. patent application Ser. No. 13/917,555, filed on Jun.13, 2013, which is a continuation of and claims priority to U.S. patentapplication Ser. No. 13/360,540, filed on Jan. 27, 2012, now U.S. Pat.No. 8,484,769, which are both hereby incorporated by reference in theirentirety.

FIELD OF THE INVENTION

The present invention is directed to a system for delivering chemicalsto a toilet bowl and, in particular, in delivering the chemicals duringthe refilling cycle so that the chemicals remain in the toilet bowl.

Keeping a toilet bowl clean and free from unwanted growth and odors is adifficult task. Users can attempt to the keep the bowl clean by addingchemicals directly or by constantly brushing the toilet bowl. Companieshave provided systems that allow for the addition of chemicals uponflushing, either by hanging a solid under the edge of the toilet bowl orby adding chemicals to the water holding tank associated with the toiletbowl. However, the majority of these chemicals are typically flushedaway as the water goes through the toilet bowl to wash away the wastedeposited in the toilet bowl. As a result, the chemicals are being sentthrough the toilet to the sewer or septic tank and the consumer ispaying for chemicals that do not provide much of a benefit in keepingthe toilet bowl clean.

SUMMARY OF THE INVENTION

According to one aspect of the present invention, a system is providedfor delivering a quantity of chemicals into a toilet bowl that includesa first chamber holding the chemicals to be delivered into the toiletbowl, the first chamber having an inlet and and an outlet, a secondchamber in fluid communication with the first chamber, the secondchamber having an outlet portion and an inlet portion, the outletportion being in fluid communication with the inlet of the firstchamber, a third chamber having an outlet in fluid communication withthe inlet portion of the second chamber, the third chamber filling withfluid during a refilling of a tank associated with the toilet bowl, thefluid filling the third chamber and causing fluid in the second chamberto force chemicals out of the third chamber at the end of the filling ofthe tank, the chemicals flowing into the toilet bowl at the end of thefilling of the tank.

In yet another aspect, a system for delivering a quantity of chemicalsinto a toilet bowl is provided that includes a main body comprises atleast two chambers, a chemical chamber for holding the chemicals and afluid chamber that empties and fills with fluid in a tank associatedwith the toilet bowl, and a container movable within the fluid chamberof the main body, the container movable from a first position to asecond position during operation of the toilet, wherein fluid from themovable container causes chemicals from the chemical chamber to flowinto the toilet bowl.

In yet another aspect, the invention is directed to a system fordelivering chemicals into toilet bowl that includes a chemical containerhaving chemicals to be delivered to the toilet bowl, an outlet attachedto and in fluid communication with the chemical container and anoverflow tube, the overflow tube in fluid communication with the toiletbowl, and a water tube attachable to a water supply for a toiletassociated with the toilet bowl, the water tube in fluid communicationwith the chemical container and the overflow tube whereby when water isinjected into the water tube, water enters the chemical container andcauses chemicals to flow through the outlet and into the toilet bowlthrough the overflow tube.

Additional features and advantages of the invention will be set forth inthe detailed description which follows, and in part will be readilyapparent to those skilled in the art from that description or recognizedby practicing the invention as described herein, including the detaileddescription which follows, the claims, as well as the appended drawings.

It is to be understood that both the foregoing general description andthe following detailed description of the present embodiments of theinvention, and are intended to provide an overview or framework forunderstanding the nature and character of the invention as it isclaimed. The accompanying drawings are included to provide a furtherunderstanding of the invention, and are incorporated into and constitutea part of this specification. The drawings illustrate variousembodiments of the invention, and together with the description serve toexplain the principles and operations of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view with a partial cut away showing oneembodiment of a system according to the present invention;

FIG. 2 is a cross sectional view of the system of FIG. 1 with acontainer in first position;

FIG. 3 is a cross section view of the system of FIG. 2 with thecontainer in a second position;

FIG. 4 is a cross-sectional view of another embodiment of a systemaccording to the present invention;

FIG. 5 is a cross-sectional view of another embodiment of a systemaccording to the present invention;

FIG. 6 is a cross sectional view showing another embodiment of a systemaccording to the present invention;

FIG. 7 is a cross sectional view showing another embodiment of a systemaccording to the present invention;

FIG. 8 is a cross section view showing another embodiment of a systemaccording to the present invention;

FIG. 9 is a perspective view with a partial cut away showing theembodiment of a system in FIG. 8 in a toilet tank; and

FIG. 10 is a cross section view of another embodiment of a systemaccording to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Reference will now be made in detail to the present preferredembodiment(s) of the invention, examples of which are illustrated in theaccompanying drawings. Whenever possible, the same reference numeralswill be used throughout the drawings to refer to the same or like parts.

Referring to FIGS. 1 and 2, one embodiment of a chemical system 100 isillustrated. The chemical system 100 preferably is an unitary body 102that has three chambers 104,106,108. As illustrated in FIG. 1, thechemical system 100 is preferably secured in the water tank 200 oftoilet 202. As discussed in more detail below, the toilet 202 also hasan overflow tube 204 that is fluid communication with toilet bowl 206and the chemical system 100 is in fluid communication with the overflowtube 204. The manner and method of securing the chemical system is notcritical, but it could have a tab to hang on the edge of the tank or besecured with an adhesive.

As more visible in FIG. 2, the chemical system 100 has a first chamber104 that holds the chemicals 150 (see FIG. 3) that are to be used in thetoilet bowl 206. The first chamber 104 is preferably the larger chamberof the three chambers for reasons that will become apparent. The firstchamber 104 has an outlet 110 with a conduit 112 that is at leastpreferably inserted into the overflow tube 204. As illustrated in FIG.2, the conduit 112 is a tubular element that is preferably rigid, butmay also be flexible.

The first chamber 104 also has an inlet 114, which is preferablydisposed near the bottom 116 of the first chamber 104. The first chamberalso has an closable opening 118 at the top 120 so that more chemicalscan easily be added to the first chamber 102. The chemicals can eitherbe a liquid or a dissolvable solid to prevent lime scale buildup, cleanthe toilet and leave it smelling fresh.

A second chamber 106 is in fluid communication with the first chamber104 through the inlet 114. The second chamber 106 has as its outlet theinlet 114 of the first chamber 104. The second chamber 106 also has aninlet 122 near the top 124 of the second chamber 106. As will becomeapparent, the inlet 122 needs to be higher than the outlet 110 of thefirst chamber to ensure that fluid flows through the chemical system 100correctly. The second chamber 106 is considerably smaller than the firstchamber 104 and acts as a conduit for fluid 160 (water in this case) tobe moved through the chemical system 100.

Second chamber 106 is in fluid communication with third chamber 108through the inlet 122 of second chamber 106. The third chamber 106 hasopenings 130 to allow fluid/water to enter the third chamber 108 duringthe refilling of the water tank 200. The number and location of theopenings 130 is not critical, but should allow for the third chamber 106to be filling at the same rate as the water tank 202. That is, theopenings 130 should not be so small or few in number to impede the flowof the water into the third chamber 108. When the water starts to fillthe third chamber 108, the container 132 partially fills with the liquidbut floats to the top of the third chamber 108, where an insert 134 atthe top portion of the third chamber 108 is configured to fit within thecontainer 132. The insert 134 forces water out of the container 132 andinto the inlet 122 of the second chamber 106. See FIG. 3. The amount ofwater that passes through the inlet 122 can be altered by the positionof the insert 134 and the position of the chemical system in the watertank 200. Since the outlet 110 is positioned lower than the inlet 122,the addition of water to second chamber 106 forces water into the firstchamber and the chemicals out of the outlet 110 as illustrated by thearrows in FIG. 3. Since the position of the chemical system is such thatthe container 132 reaches the insert 134 at the end of the filling ofthe water tank 200, the chemicals are introduced into the overflow tube204 at the end of the fill cycle of the toilet 202. In this way, only asmall portion of chemicals need to be added to the water since all (ornearly all) of the chemicals added to the toilet bowl 206 will remain inthe bowl as it fills up rather than during the flush cycle.

An alternative embodiment of a chemical system 300 is illustrated inFIG. 4. In this embodiment, the chemical system 300 operates in the samemanner as chemical system 100, but has a tubular element 306 thatfunctions as the second chamber of the prior embodiment. The chemicalsystem 300 has a first chamber 304 and a third chamber 308. Thefunctions of the openings 330 and the container 332 with the insert 334is as described above.

Another embodiment of a chemical system 400 is illustrated in FIG. 5. Inthis embodiment, the container/insert of the system has been replacedwith a pump mechanism. Chemical system 400 has a first chamber 404 influid communication with overflow tube 204 and a third chamber 408 withopenings 430 to allow water to enter the third chamber. The pumpmechanism has a fluid sensing switch 440, a battery 442 connected to thefluid sensing switch 440 and a pump 444. The pump 444 is also connectedto an adjustable switch 446 to regulate the amount of liquid that thepump 444 injects into the tubular element 406 and into the third chamber404. The owner can adjust the adjustable switch 446 to add more or lesschemicals to the toilet 202. As the water enters the third chamber 408and makes contact with the water sensing switch 440 at the end of thefilling cycle, a signal is sent to the pump to draw water from the thirdchamber and pump it into the first chamber 404 with the chemicals. As aresult of the water being added to the third chamber 408, the chemicalsexit the first chamber 404 at the end of the filling of the thirdchamber 408.

In chemical system 400, the inlet 422 is positioned higher than theoutlet 410 so that liquid in the third does not flow back into the thirdchamber 408. It is also possible to seal the inlet 422 around thetubular element 406 to prevent any accidental movement of the liquidsbetween chambers. The various parts of the pump mechanism could also bein a separate container to protect them from exposure to water - exceptthe water sensing switch which must be exposed to the water.

FIG. 6 illustrates a different embodiment of a chemical system 400′. Inthis embodiment, the pump 444′ receives the water from outside thesystem 400′ and in the water tank 200. In this way, the remaining partsof the pump system do not need to be exposed to the water. The water ispumped by pump 444′ directly through the third chamber 408′ to the firstchamber 404′.

FIG. 7 illustrates another embodiment of a chemical system 500. Chemicalsystem 500 has a first chamber 504 and a third chamber 508. The firstchamber 504 is completely sealed with respect to the third chamber 508.Chemicals reside in the first chamber 504 as described above. However,the third chamber 508 remains dry and does not have any contact with thewater from the water tank 200. Instead, the battery 542, pump 544, andadjustable switch 546 are placed in the dry third chamber 508. When thefluid sensing switch 540 senses that the water is about at its height inthe tank, the pump 544 pulls through the flexible member 526 a smallamount of the chemical from the first chamber 508. The pump 544 pumpsthe chemical through the tubular element 506 into the overflow tube 204.While the end of tubular element 506 is placed in the overflow tube,another outlet configuration could be realized and still be within thescope of the present invention. Additionally, tubular element 506 isillustrated as passing through the first chamber 504, but it could berouted in another manner as well.

FIGS. 8 & 9 illustrate another embodiment of a chemical system 600. Thechemical system 600 is illustrated in the water tank 200 of toilet 202.The chemical system preferably has a first chamber 604 and a thirdchamber 608. The first chamber 604 holds the chemicals 650 that are tobe used in the toilet bowl 206 of the toilet 202. The first chamber 604also has an closable opening 618 at the top 620 so that more chemicalscan easily be added to the first chamber 604. The chemical system 600may also be completely or partially replaceable as a unit rather thanreplacing the chemicals therein. As such, the chemical system may be aclosed system that is installed in the toilet 202. The chemicals caneither be a liquid or a dissolvable solid to prevent lime scale buildup,clean the toilet and leave it smelling fresh. The first chamber 604 hasan outlet 610 with a conduit 612 that is attached to a chemical tube 628that is inserted into the overflow tube 204 of the toilet 202. The firstchamber 604 has an inlet 614, which is preferably at the the bottom ofthe first chamber 604. In fluid communication with the first chamber 604is third chamber 608. The third chamber 608 has an outlet that that isthe inlet 114 of the first chamber 604. The third chamber 608 also hasan inlet 622 near the top 624 of the second chamber 608. As will becomeapparent, the inlet 622 needs to be higher than the outlet 610 of thefirst chamber 604 to ensure that fluid flows through the chemical system100 correctly. Preferably, he third chamber 604 is considerably smallerthan the first chamber 104 and acts as a conduit for the fluid flowingthrough the system 600, although it may be of any size. This isparticularly true if the owner wants to use the chemical system 600 tooccupy more space in the toilet tank, thereby reducing the amount ofwater that is used to fill the toilet tank. Also, the user can mount thechemical system 600 at varying vertical positions in the toilet tank tofurther achieve reduced water use. See FIG. 9.

The system 600 has a water tube 640 that is attached to the water supply208 for the toilet 202. The water tube 640 connects the water supply 208to the overflow tube 204 as is usual in a toilet. The water tube 640also connects through a tee 642 to the inlet 622 of the third chamber608. The water tube 640 is illustrated as passing through the inlet 622and terminating at the bottom of the first chamber 604. As will berecognized, the end of the water tube 640 can be anywhere in the firstchamber 604 and still fall within the scope of the present invention.The water from the water supply 208, upon flushing of the toilet 202,will cause water to flow through the water tube 640 and enter theoverflow tube 204 to fill the bowl and also through the third chamber608 and into the first chamber 604. The water entering the first chamber604 will cause the level of the system 600 to go above the outlet 610and the chemicals will exit the first chamber through the outlet 610 andchemical tube 628 and into the overflow tube 204 to enter the toiletbowl 206.

The water tube 640, as used herein, is the tubing used to get the waterfrom the water supply 208 to the various parts of the chemical system600 and the toilet. The water tube 640 is illustrated in the figures asthe tube coming from the water supply 208 to the tee 642. A chemicaltube portion 646 of the water tube 640 is disposed between the tee 642and the first chamber 604. A filling tube 648 of the water tube 640 isdisposed between the tee 642 and the overflow tube 204.

The water tube 640 preferably has an adjustable valve 644 that allowsthe user to adjust the amount of water passing therethrough. In thisway, the amount of water entering the first chamber 604 can be adjustedby the user according to their own preferences. It should also be notedthat the valve 644 could be disposed in the filling tube 648 portion ofthe water tube 640 rather than in the chemical tube portion 646 of thewater tube 640, as illustrated. By adjusting the amount of water flowingthrough the filling tube 648 portion of the water tube 640, the amountof water entering the first chamber 604 can also be affected.

FIG. 10 illustrates another embodiment 600′ of a chemical systemaccording to the present invention. Chemical system 600′ is most similarto chemical system 600, but the chemical container is simply a firstchamber 604′. The opening 622′ is in the first chamber 604′ and thechemical tube portion 646 of the water tube 640 enters first chamber604′ therethrough. The tee 642′ has one leg that is larger than theother two legs to allow for more water to enter the overflow tube 204,but the larger leg could also be attached to the chemical tube portion646 of the water tube 640. The filling tube 648 portion of the watertube 640 is similarly larger than the chemical tube portion 646 of thewater tube 640.

As the water enters into the first chamber 604′, the water forces thechemicals 650 to leave through outlet 610 and conduit 612 and flowthrough chemical tube 628 to the overflow tube 204 of the toilet 202.Again, the volume of water that enters into the first chamber 604′ canbe controlled by the valve 644.

It will be apparent to those skilled in the art that variousmodifications and variations can be made to the present inventionwithout departing from the spirit and scope of the invention. Thus it isintended that the present invention cover the modifications andvariations of this invention provided they come within the scope of theappended claims and their equivalents.

I claim:
 1. A system for delivering a quantity of chemicals into atoilet bowl comprising: a chemical container having chemicals to bedelivered to the toilet bowl; an outlet attached to and in fluidcommunication with the chemical container and an overflow tube, theoverflow tube in fluid communication with the toilet bowl; and a watertube attachable to a water supply for a toilet associated with thetoilet bowl, the water tube in fluid communication with the chemicalcontainer and the overflow tube whereby when water is injected into thewater tube, water enters the chemical container and causes chemicals toflow through the outlet and into the toilet bowl through the overflowtube.
 2. The system according to claim 1, wherein the system in mountedin a water tank associated with the toilet bowl, the water supply alsofilling the water tank during each filling of the toilet bowl.
 3. Thesystem according to claim 1, wherein the water tube provides water tooverflow tube and the chemical container.
 4. The system according toclaim 1, further comprising a valve disposed in the water tube betweenthe water supply and the chemical container.
 5. The system according toclaim 4, wherein the valve can be adjusted to regulate an amount ofwater provided to the chemical container.
 6. The system according toclaim 1, wherein the chemicals flow through the outlet and into thetoilet bowl during every filling of the toilet bowl.
 7. The systemaccording to claim 1, wherein the water tube has a tee, splitting waterflowing therein between the overflow tube and the chemical container. 8.The system according to claim 7, wherein a chemical tube is disposedbetween the tee and the chemical container and a filling tube isdisposed between the tee and the overflow tube, the chemical tube andthe filling tube have predetermined diameters.
 9. The system accordingto claim 8, wherein the predetermined diameters are the same.
 10. Thesystem according to claim 8, wherein the predetermined diameters are thedifferent.